Electroplating production line can be divided into hanging plating production line, rolling plating production line, ring plating production line, linear longmen plating production line, plastic plating automatic production line and so on.
Output calculation of automatic electroplating production line:
The main parameters affecting the output of electroplating are:
1. Takt time requirements:
Takt time is the amount of time it takes to hang (or barrel) an artifact up or down. In general, the shorter the beat time, the more drums (or barrels) are produced per unit of time.
For the linear plating production line, the beat time is generally ≥4.5 minutes, with the minimum up to 3 minutes; for the annular plating production line, the beat time is generally ≥1 minute, with the minimum up to 35 seconds.
Ii. Weight requirements for each hanging or barrel of plating:
For hanging plating pieces, the amount of each hanging plating piece is related to the size of the tank, usually measured by the number of pieces or weight.
Discharge range of electroplating work: the horizontal direction shall be 200mm smaller than the size of the tank, and the height shall be 350-400mm smaller than the tank.
For rolling plating, the amount of each barrel of plating and the size of the barrel, generally measured by weight. The discharge of electroplating work is generally no more than one third of the total capacity of the drum.
The output of automatic electroplating production line is related to the beat time (minutes) and the amount of plating G (kilograms or pieces) per hang or barrel. Output per hour: KG× (60/T)
3. Formula for calculating the output of automatic electroplating line:
For example: automatic rolling plating production line yield calculation formula:
Takt time: 4 minutes, drum weight: 250KG working time: 10 hours
10 h yield: 15 cylinders *10 h *250KG= 37.5t
For example: output calculation formula of gantry hanging plating production line:
Takt time: 3 minutes; weight per hang: 100KG; working time: 10 hours
10 h yield: 20 hang *10 h *100KG=20T